Classifications

• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
  • H04L65/00—Network arrangements, protocols or services for supporting real-time applications in data packet communication
  • H04L65/1066—Session management
  • H04L65/1069—Session establishment or de-establishment
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
  • H04L65/00—Network arrangements, protocols or services for supporting real-time applications in data packet communication
  • H04L65/1066—Session management
  • H04L65/1101—Session protocols
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
  • H04L9/00—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols
  • H04L9/40—Network security protocols
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04M—TELEPHONIC COMMUNICATION
  • H04M7/00—Arrangements for interconnection between switching centres
  • H04M7/0024—Services and arrangements where telephone services are combined with data services
  • H04M7/0027—Collaboration services where a computer is used for data transfer and the telephone is used for telephonic communication
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04M—TELEPHONIC COMMUNICATION
  • H04M7/00—Arrangements for interconnection between switching centres
  • H04M7/0024—Services and arrangements where telephone services are combined with data services
  • H04M7/0051—Services and arrangements where telephone services are combined with data services where the data service is a multimedia messaging service
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04M—TELEPHONIC COMMUNICATION
  • H04M7/00—Arrangements for interconnection between switching centres
  • H04M7/12—Arrangements for interconnection between switching centres for working between exchanges having different types of switching equipment, e.g. power-driven and step by step or decimal and non-decimal
  • H04M7/1205—Arrangements for interconnection between switching centres for working between exchanges having different types of switching equipment, e.g. power-driven and step by step or decimal and non-decimal where the types of switching equipement comprises PSTN/ISDN equipment and switching equipment of networks other than PSTN/ISDN, e.g. Internet Protocol networks

Definitions

• the invention relates to the field of multimedia communications, in particular within asynchronous networks.
• Multimedia is understood here to mean audio (voice and sound) as well as video (still or animated images), or “instant messaging”, or the presentation or sharing of document (s), and the like. .
• the sound (or audio) part is often of great importance.
• the transmission of audio data packet streams (or voice) within asynchronous networks induces a significant deterioration in the initial sound quality. This is mainly due to jolts (or fluctuations) in transmission times, packet loss, line echoes and acoustic echoes.
• a second communication dedicated to audio via a traditional switched telephone network.
• the first communication is established between at least two multimedia (or video) communication terminals, the speaker and the microphone of which have been disabled beforehand, and the second communication is established between at least two communication terminals audio.
• “Audio communication terminal” (or audio terminal) is understood here to mean any communicating network equipment capable of exchanging audio data, such as for example a telephone.
• the term “multimedia (or video) communication terminal” (or video terminal) is understood here to mean any multimedia communicating network equipment capable of exchanging video data, such as for example a personal computer.
• the document WO 99/44363 describes a method and a gateway for re-synchronizing audio data and the video data packets originating from audio and video terminals of the same user, the audio signal and possibly the video signal being transmitted via a network. asynchronous such as a local computer network.
• the gateway comprises means for applying a variable and adjusted transmission delay to the audio data so as to at least partially compensate for a difference in transmission time between the audio data and the video data.
• the gateway must know parameter values for each terminal which will use its services: a name or an identifier of this terminal; the type of this terminal; the identifier of another terminal if the terminal in question is associated with another terminal to form a multimedia handset; a type of home network for the terminal; a terminal address in a computer network; the standards supported by the terminal; calibration information.
• the document WO 99/44363 indicates that these parameter values are supplied by either an operator who can access the gateway, or by the user of a terminal, by online access. It is frequent that a user starts by establishing a multimedia communication (video and audio) via an asynchronous network then experiences the need to establish an audio communication via a traditional telephone network; especially if it finds that the quality of audio transmission is insufficient on the asynchronous network.
• the invention therefore aims to remedy the aforementioned drawback.
• it offers a multimedia communications management device, via an asynchronous network and a traditional telephone network, between, on the one hand, a first audio communication terminal associated with a first video communication terminal, and on the other hand , a second audio communication terminal associated with a second video communication terminal; these video communication terminals being able to request the establishment, via the asynchronous network, of a multimedia communication capable of transmitting at least one video signal; characterized in that it comprises:
• connection means suitable for establishing a telephone connection on order between said first and second audio communication terminals via said traditional telephone network
• connection means suitable for automatically supplying the connection means with the identifiers of the first and second audio communication terminal, when a multimedia link is to be established between said first and second video communication terminals via the asynchronous network.
• the device thus characterized allows a user to easily establish a telephone communication through a traditional telephone network, in parallel with a multimedia communication used only for transmitting video, because the means suitable for automatically supplying the identification means of the connection means first and second audio communication terminal, relieve the user of the burden of searching for the identifier of the audio terminal to be called, and of establishing communication from this identifier.
• the means suitable for automatically supplying the connection means with the identifiers of the first and of the second audio communication terminal include, in each terminal video communication:
• connection means in order to establish a telephone connection.
• the means suitable for automatically supplying the connection means with the identifiers of the first and of the second audio communication terminal comprise, in a node of the traditional telephone network, means for:
• connection means in order to establish a telephone connection between the two terminals thus identified.
• the management means can in fact be arranged so as to apply to the audio data a transmission delay of predetermined duration (possibly constant), or of variable duration. In the case of a variable duration, several cases can be envisaged.
• the management means can be arranged so as to determine the duration as a function of auxiliary data which is delivered to it either by means of management interface of the device, or by the first or second video terminals after the means of link have established links, called signaling links, with these video terminals, via the asynchronous network.
• At least two embodiments can be envisaged. They are both based on the use of the microphone of each video terminal to pick up the sounds (audio data) delivered by the user to his audio terminal or delivered by the speaker of the audio terminal.
• the device comprises auxiliary modules, each coupled to a microphone within a video terminal, and responsible for determining the difference in duration of transmission of audio data on the multimedia link and on the telephone link, and for generating auxiliary data representative of this difference.
• each auxiliary module can for example include:
• processing means responsible, when they receive audio data (sounds picked up by the microphone of the video terminal), to extract a portion of it, then to constitute a primary packet with the audio data of the portion, then to synchronize the primary packet with the video stream exchanged, and finally to transmit the primary packet synchronized to the auxiliary module located in the video terminal with which their own video terminal has established a multimedia link, and
• • calculation means responsible, when they receive a primary packet, for dating the primary packet, then for comparing the portion of audio data contained in this dated primary packet with dated telephony audio data, previously received via the audio terminal and the microphone, then in the event of identity between the portion and some of the telephony audio data, to determine the difference in duration of transmission of the audio data on the multimedia link and on the telephone link, then to generate auxiliary data representative of this difference , and finally to transmit the auxiliary data to the link module via a signaling link.
• the processing means can be arranged, when they receive audio data and before transmitting the primary packet, so as to constitute a secondary trigger packet and to synchronize it with the exchanged video stream , then to transmit this secondary packet to the calculation module located in the video terminal with which their own video terminal has established a multimedia link, and on the other hand, the calculation means are arranged, when they receive a secondary packet, to so as to order the storage and dating of the telephony audio data coming from the audio terminal via the microphone.
• the means of management are arranged, after having established the telephone link, to transmit simultaneously to the first and second video terminals, via the telephone link and their respective microphones, a message defining an initial instant
• the device comprises auxiliary modules, each coupled to a microphone within a video terminal, and responsible for determining the duration of transmission of video data over the multimedia link, and for generating auxiliary data representative of this duration.
• each auxiliary module can for example comprise: • dating means arranged, on the one hand, when they receive a message, to trigger a time counter, and to add a time stamp of emission, representative of the duration elapsed since the time counter was triggered, each video packet stream to be transmitted to the video terminal with which their own video terminal has established a multimedia link, and secondly, when they receive a marked video packet stream, to add to this flow a reception time stamp, representative of the time elapsed since the triggering of the time counter, and o calculation means, arranged to determine from the transmission and reception time markings the duration of data transmission video on the multimedia link established via the asynchronous network between the first and second video terminals, then for generating data auxiliaries representative of this transmission time, and transmit the auxiliary data to the link module via a signaling link.
• the management means are preferably arranged so as to determine an actual duration of transmission of the video data on the multimedia link by adding the duration of transmission received and the result of the subtraction between a first duration of transmission of the message between the management means and the auxiliary module installed in the second video terminal and a second duration of transmission of the message between the management means and the auxiliary module installed in the first video terminal.
• first and second durations can be, for example, obtained by the implementation of an acoustic echo technique, preferably by the management means.
• FIG. 1 schematically illustrates a first embodiment of a device according to the invention, installed in a communications installation
• FIG. 2 schematically illustrates a second embodiment of a device according to the invention, located in a communications installation.
• the invention relates to multimedia communications within asynchronous networks and traditional telephone networks between, on the one hand, a first audio communication terminal and a first video communication terminal, independent, and on the other hand, a second terminal. audio communication and a second video communication terminal, independent.
• the asynchronous network is an IP protocol network and that the telephony network is of the type known as “with time division multiplexing” (or TDM for “Time division Multiplexing”).
• the invention is neither limited to asynchronous networks with IP protocol, nor to TDM telephony networks.
• each audio communication terminal is a fixed telephone equipped with a loudspeaker and a microphone and connected by wire link to the TDM telephone network.
• each video communication terminal is a personal multimedia computer equipped with a loudspeaker and a microphone, capable of exchanging video data via the asynchronous IP network, and possibly coupled to a video camera.
• the invention is not limited to personal computers (fixed or portable). It concerns any communicating equipment capable of exchanging multimedia data (notably video) via the asynchronous IP network.
• the expressions “telephone” and “computer” respectively designate an audio communication terminal (or audio terminal) and an IP video communication terminal (or video IP terminal).
• the invention provides a management device intended to allow users to exchange audio data (or voice) and video data (or image) in a synchronized manner respectively on their personal telephone and computer (which are independent).
• FIG. 1 to describe a first exemplary embodiment of a management device according to the invention.
• a first user has a first pair of equipment comprising a first telephone T1 and a first computer PC1 containing video data (or connected to a video camera delivering video data, such as for example a "web camera” ).
• a second user has a second pair of equipment comprising a second telephone T2 and a second computer PC2 containing video data (or connected to a video camera delivering video data, such as for example a "web camera") .
• each Ti telephone is equipped with a speaker HPTi and a microphone MTi, and is connected to a traditional telephone network TDMN, with synchronous time multiplexing.
• This traditional TDMN telephone network includes a management unit B, for example located in a network switching center (or PBX for “Private Branch eXchange”), in which part of the management device according to the invention can be located. .
• the management unit B comprises at least one link module ML and one management module MG.
• the link module ML is responsible for establishing a telephone link, between a telephone T1 and a telephone T2 via the telephone network TDMN, under the control of the management module MG.
• the management module MG receives an order to establish an audio communication L1 when a multimedia link L2-L3 is to be established between two video communication terminals PC1, PC2 via the asynchronous network IPN.
• the module MG orders the link module ML to establish a telephone link L1 between the telephones T1 and T2, via the traditional network TDMN; and on the other hand, it determines a transmission delay to be applied to audio data exchanged via the telephone link L1, in order to at least partially compensate for the difference in transmission time between the audio data which the telephones must exchange T1 and T2 via the telephone link L1, and the video data, which the PC1 and PC2 computers must exchange via a multimedia link, L2-L3, established within the IPN network.
• This multimedia link actually consists of two links: an L2 link for transmitting a video signal, and an L3 link intended for transmitting an audio signal.
• This L3 link is assumed to be of unsatisfactory quality for users. They would rather use an L1 audio link via the traditional TDMN network.
• the management unit B can also include an echo cancellation module, of the type of those usually used when an audio delay greater than a chosen threshold value has to be introduced.
• the threshold value is generally chosen according to a recommendation. It is for example equal to 10 or 20 ms (millisecond).
• the management unit B also includes an insertion module Ml, supplied with audio data to be delayed (coming from a telephone Ti) by the link module ML and responsible for applying to this audio data the transmission delay determined by the management module MG. Once this delay has been applied, the audio data return to the link module ML which transmits it via the link L1 to the destination telephone Tj.
• the insertion module M1 can be part of the management module MG, but it can also be installed elsewhere than in the management box B.
• the configuration notably consists in providing the multimedia communication application module MAVi of the computer PCi with the complete telephone identifier (including the regional and national codes) of the telephone Ti associated therewith.
• either the MAVi module is programmed to systematically establish two communications, when a user Ui requests the establishment of a multimedia communication: a multimedia communication L2- L3 which can a priori support a video signal and an audio signal, but which is used only for transmitting a video signal to the multimedia terminal consisting of the computer PCj, via the asynchronous network IPN; and a telephone communication L1 to the telephone terminal Tj associated with the computer PCj of the corresponding user Uj, via the traditional network TDMN.
• the MAVi module is programmed to establish only multimedia communication L2-L3, and to offer the user Ui, as an option, to establish in addition a telephone communication L1 (of better quality) to the associated telephone terminal Tj at the computer PCj of the corresponding user Uj, via the traditional TDMN network. If the user Ui responds positively, the application module MAVi will read, from a memory of the computer Pci, the identifier of the telephone terminal Tj associated with the multimedia terminal consisting of the computer PCj of the corresponding user Uj, this identifier having been previously memorized in this memory.
• the two multimedia communication application modules MAVi and MAVj of the computer PCi and PCj negotiate a multimedia link L2-L3, and they establish this multimedia link L2-L3, via the IPN network.
• the management unit B and of the video application modules MAVi, MAVj the latter communicate to each other the telephone identifiers of the telephones Ti and Tj with which they are respectively associated. The two users therefore do not have to intervene to obtain the telephone number of their respective correspondent.
• the computer PCi sends to the management unit B (of which it knows the IP communication identifier) a request for establishing a telephone link, containing in particular the telephone identifiers of the two telephones Ti and Tj.
• the management module MG processes the request and then orders the link module ML to establish the telephone link L1.
• Multimedia communication via PCi video terminals and
• PCj for images
• audio terminals Ti and Tj for voice
• the launching of the procedure for establishing the telephone communication L1 in addition to the multimedia communication L2-L3 can therefore be either systematic, for example by a previous configuration of the multimedia communication application module MAVi; is performed at the request of the user Ui, for example by selecting an option offered on his computer screen by his multimedia communication application module MAVi. But, in any case, this procedure is simplified since the user does not need to obtain the identifier of the correspondent's telephone set.
• the telephone identifiers of your terminals Ti and Tj are stored in a directory server, and an application is executed on an application server, these servers being located in nodes of the corporate network.
• This application establishes, at the request of a video communication terminal, PC1 for example, a multimedia communication L2-L3, via the asynchronous network IPN, and possibly also establishes a telephone communication L1 via the traditional TDMN network, entirely automatic.
• this application is programmed to systematically establish two communications, when a user Ui requests the establishment of a multimedia communication: a multimedia communication L2- L3 which can a priori support a video signal and an audio signal, but which is used only to transmit a video signal to the multimedia terminal consisting of the computer PCj, via the asynchronous network IPN; and a telephone communication L1 to the telephone terminal Tj associated with the computer PCj of the corresponding user Uj, via the traditional network TDMN.
• the procedure for establishing the telephone call is automated, the user does not need to obtain the number of the telephone terminal to call.
• the application is programmed to automatically seek the identifier of the telephone terminal associated with the multimedia terminal of the correspondent, in the directory server associated with the switching center.
• the transmission delay applied to the audio data can be of predetermined duration (possibly constant). However, it is preferable that it be of variable duration in order to optimize the synchronization of the audio data and the video data.
• the management module MG can, for example, determine the duration of the delay as a function of auxiliary data which is delivered to it by an operator via a management interface IG of the device, or else by the user Ui of one of the computers PCi via a link, called signaling, L4-i, for example, or by computers PC1, PC2 after the link module ML has established with them L4-i links, called signaling, via the IPN network.
• the example of a management device illustrated in FIG. 1 is responsible for determining and applying a variable delay from auxiliary data supplied by the computer PC1 or the computer PC2.
• the management device comprises auxiliary modules (or calculation devices) MAi installed in each computer PCi and coupled to the IP communication interface ICi.
• Each auxiliary module MAi is coupled to the microphone MPi of the computer PCi in which it is located, and responsible, in this example, for determining (or estimating) the difference in duration of transmission of audio data on the multimedia video link L2 and on the telephone link L1, and generate auxiliary data representative of this difference.
• each auxiliary module MAi is responsible for determining (or estimating) the difference in duration of transmission of audio data on the multimedia video link L2 and on the telephone link L1, and generate auxiliary data representative of this difference.
• each auxiliary module MAi is responsible for determining and applying a variable delay from auxiliary data supplied by the computer PC1 or the computer PC2.
• the management device comprises auxiliary modules (or calculation devices) MAi installed in each computer PCi and coupled
• auxiliary MA1 comprises a processing module PMi (for example PM1) loaded, when it receives from the microphone Mi (M1 in this example) audio data representative of the words (or sound signals) SS1 emitted by the user U1 to destination of the microphone MT1 of his telephone T1, to extract a portion of it PSS1, then to constitute a primary packet with the audio data of the portion PSS1, then to synchronize the primary packet with the video stream exchanged on the multimedia video link L2, and finally to transmit the primary synchronized packet to the auxiliary MA2 module installed in the PC2 computer.
• This primary packet containing audio data it therefore borrows the audio part L3 of the multimedia link established between the two computers PC1 and PC2 within the IP IPN network.
• each auxiliary module MAi comprises a calculation module CMi (for example CM2) responsible for dating each primary packet which it receives, then for comparing the portion PSS1 of audio data contained in this primary packet dated to telephony audio data dated SS1, previously received by the telephone T2 via the telephone link L1, broadcast on its speaker HPT2 and picked up by the microphone MP2, then in case of identity between the received portion PSS1 and some of the audio data from received telephony SS1, to determine the difference in duration of transmission of the audio data on the audio multimedia link L3 and on the telephone link L1, then to generate auxiliary data representative of this difference, and finally to transmit the auxiliary data to the connection module ML of the management unit B, via a signaling link L4-2 which it has previously established with the computer PC2.
• CMi calculation module responsible for dating each primary packet which it receives, then for comparing the portion PSS1 of audio data contained in this primary packet dated to telephony audio data dated SS1, previously received by the telephone T2 via the telephone link L
• connection establishment request received by the management module MG also includes the IP communication identifiers of the two computers PC1 and PC2. Consequently, once the link module ML has established the telephone link L1, the management module MG orders it to establish with each computer PCi a signaling link L4-i via the IP network IPN, in order to allow said computers PCi to transmit their auxiliary data to it.
• the auxiliary module MAj of the receiving computer PCj which is responsible for determining the difference in duration of transmission of the audio data PSSi originating from the computer PCi on the audio multimedia link L3 and of the data audio SSi from the telephone Ti on the telephone link L1, the audio packets having been synchronized with the corresponding video packets by any synchronization method known to those skilled in the art.
• the calculation module CMj compares its audio data with that which it has just memorized and dated. Then, in case identity it calculates the difference by performing the subtraction between the time of arrival of the audio data from the PSSi portion from the computer PCi and the time of arrival of the audio data SSi from the telephone Ti. It is indeed considered here that the time elapsed between the instant of emission of sounds SSi by the user Ui and the instant of processing of said sounds by the processing module PMi is substantially equal to the duration elapsed between instant d emission of the sounds SSi by the loudspeaker HPTj and the time of dating of said sounds by the calculation module CMj, preceding their storage in a memory of the auxiliary module MAj (not shown).
• the storage mechanism can be implemented in two ways.
• a first way consists in configuring the calculation modules CMi so that they permanently save, for a chosen duration (for example equal to a few seconds), all the audio data SSj (sampled) coming from the transmitting telephone Tj.
• a second way consists in providing for a triggering of the memorization by sending a trigger signal by the sending computer PCj to the receiving computer PCi.
• the processing module PMj is arranged so as to constitute a secondary packet (forming a trigger signal) each time it begins to receive audio data SSj picked up by the microphone MPj, and before transmitting the primary packet. Then, the processing module PMj synchronizes the secondary packet with the exchanged video stream, transmits it via the audio multimedia link L3 to the auxiliary module MAj installed in the receiving computer PCi.
• the calculation module CMi is then arranged so as to order the storage and the dating of the telephony audio data SSj coming from the sending telephone Tj, each time that it receives a secondary packet coming from the sending computer PCj.
• This memorization is preferably of a chosen duration (for example equal to a few seconds).
• the MG can deduce the duration of the delay to be applied to the audio data in order to compensate (at least partially) for the desynchronization between this audio data, transmitted by the TDMN telephone network, and the packets of video data, transmitted by the IPN IP network. It then sends instructions to the insertion module M1 so that it delays the audio data by the chosen duration, before it is reinjected into the telephone network TDMN, intended for the receiving telephone. It is important to note that the delay can either be determined for the entire duration of the multimedia communication, or is determined periodically, for example every second.
• FIG. 2 to describe a second embodiment of the management device according to the invention.
• This embodiment has many similarities with that described above with reference to FIG. 1. It can in particular be used in the same type of communications installation.
• the management module MG ′ is arranged, once the telephone link L1 has been established, to transmit simultaneously to the first PC1 and second PC2 computers, via the telephone link L1, the speakers HPT1 and HPT2 telephones T1 and T2 and their respective microphones MP1 and MP2, a message MES defining an initial instant.
• each auxiliary module MAi ′ is always coupled to the microphone MPi of the computer PCi in which it is installed, but it is now responsible for determining the duration of transmission DT of the video data on the video multimedia link L2, and for generating auxiliary data representative of this duration. It is important to point out that the MES message can be optionally sent periodically, in order to allow a (periodic) redefinition of the initial instant.
• each auxiliary module MAi comprises a dating module DMi responsible, when it receives from the microphone MPi a message MES from the management unit B' and broadcast by the speaker HPTi, to trigger a time counter (not shown), and to date each stream of video packets to be transmitted to the computer recipient PCj via the multimedia video link L2.
• This dating consists in adding to the video stream a time stamp, said to be emission, representative of the time elapsed since the triggering of the time counter.
• the dating module DMi is also arranged, when it receives a stream of marked (or dated) video packets coming from a computer PCj via the multimedia video link L2, to add to this stream another time stamp, known as reception, representative of the time elapsed since the triggering of its own time counter.
• Each auxiliary module MAi ' also includes a calculation module CMi' responsible for determining, from the transmission and reception time markings of the video streams received from the sending computer PCj, the duration of transmission DT of the video data on the link multimedia video L2, then generate auxiliary data representative of this transmission time DT, and transmit them to the management module MG 'of the management unit B' via the signaling link L4-i previously established by the link module ML , as previously explained.
• CMi' also includes a calculation module CMi' responsible for determining, from the transmission and reception time markings of the video streams received from the sending computer PCj, the duration of transmission DT of the video data on the link multimedia video L2, then generate auxiliary data representative of this transmission time DT, and transmit them to the management module MG 'of the management unit B' via the signaling link L4-i previously established by the link module ML , as previously explained.
• This determination is made using a simple subtraction between the reception time marking and the transmission time marking attached to each video stream.
• This transmission time DT is not equal to the real transmission time DTR, since it does not take into account the different transmission times of the message MES between the management module MG 'and the first computer PC1, on the one hand , and the management module MG 'and the second computer PC2, on the other hand.
• the time counts are generally not triggered simultaneously by the dating modules DM1 and DM2.
• To + A therefore constitutes the start time of the time counting carried out by the dating module DM1
• To + B constitutes the starting time of the time counting carried out by the dating module DM2.
• 49 s 700 ms will therefore include a transmission time stamp whose value is 00 h 05 min 25 s 400 ms.
• This marked video packet is for example received by the dating module DM2 of the second computer PC2 at 16 h 56 min
• said DM2 dating module can add a reception time stamp whose value is 00 h 05 min 25 s 700 ms.
• the actual transmission time DTR is preferably determined by the management module MG 'from the transmission time DT transmitted in the form of auxiliary data by the auxiliary module MAi' of the receiving computer PCi, via the signaling link L4- i. Specifically, to determine the actual transmission time
• the management module MG adds to the transmission time received the result of the subtraction between the duration of transmission of the message (B) between the management unit B' and the auxiliary module MA2 'installed in the second computer PC2 and the duration of transmission of the message (A) between the management unit B' and the auxiliary module MA1 'installed in the first computer PC1.
• DTR DT + B - A.
• durations A and B are constant and can be, for example, obtained by the implementation of an acoustic echo technique by going back and forth from a sound signal between the management unit B 'and each telephone Ti, at l 'MG management module initiative'.
• durations A and B being generally small compared to the durations of transmission of the video packets on the multimedia video link L2, typically 25 ms compared to 300 ms, it is possible to envisage a simplified operating mode in which DT is equal to DTR. In this case, the management module MG ′ does not need to perform any additional calculation to determine the delay to be applied to the audio data.
• the management, connection, insertion, processing, calculation and dating modules of the management device and calculation device according to the invention can be produced in the form of electronic circuits, software (or computer) modules, or a combination of circuits and software.
• the transmission of audio data from a multimedia communication makes it possible to suppress fluctuations in transmission times, loss of audio packets, line echoes and acoustic echoes, and on the other hand
• the insertion of a transmission delay makes it possible to partially or totally compensate for the desynchronization between the audio data and the video data packets.
• management device calculation device
• video communication terminal management box
• management box described above, only by way of example, but it encompasses all the variants that may be envisaged. a person skilled in the art within the scope of the claims below.
• exemplary embodiments suitable for communications via an asynchronous network with IP protocol and a telephone network of TDM type.
• the invention is not limited to these networks alone. It relates generally, on the one hand, to all so-called “packet switching” networks, in which the transmission of packet flows of audio or video data is of the non-deterministic type, and on the other hand to all traditional telephone networks, that is to say switched with short transmission times and of a deterministic type.

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• Engineering & Computer Science (AREA)
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• General Engineering & Computer Science (AREA)
• Multimedia (AREA)
• Business, Economics & Management (AREA)
• General Business, Economics & Management (AREA)
• Computer Security & Cryptography (AREA)
• Data Exchanges In Wide-Area Networks (AREA)
• Telephonic Communication Services (AREA)
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• 2003
  • 2003-02-25 FR FR0302265A patent/FR2851713B1/fr not_active Expired - Fee Related
• 2004
  • 2004-02-25 US US10/546,814 patent/US7483523B2/en not_active Expired - Fee Related
  • 2004-02-25 EP EP04714352A patent/EP1599987B1/de not_active Expired - Lifetime
  • 2004-02-25 WO PCT/FR2004/000401 patent/WO2004077717A2/fr active IP Right Grant
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